M384361 五、新型說明: 【新型所屬之技術領域】 本創作係一種觸控面板,尤其是一種能避免二基板相 互干擾以提升良率的電容式觸控面板。 【先前技術】 一般常見的觸控面板依據其原理的不同而可分為電阻 .式、電容式、音波式以及光學式等四種。而目前最受到矚 -目的即為電容式觸控面板,而電容式觸控面板又可依照其 • 觸控區不同的設計而分為表面型電容式觸控面板(單點觸控) 以及投射型電容式觸控面板(多點觸控),藉此能夠克服以 往電阻式觸控面板藉由手指按壓而造成螢幕磨損的現象。 而一般的電容式觸控面板可具有單層基板或者雙層基 板,如本案申請人於民國98年12月n日提出之新型專 利申凊號為第9822321 5號之「投射型電容觸控面板」即 為雙層基板’以改善單層基板的問題。 既有具有雙層基板的電容— 式觸控面板包括二基板以及 _ 一光學膠層,該等基板相對於彼此的表面具有交錯的氧化 -銦錫(丨丁〇)導電區以及連接該丨TO導電區和軟性電路板的 金屬佈線區,該光學膠係設置於該等基板之間,且係佈滿 基板的整體表面,而與該丨TO導電區以及金屬佈線區接觸。 然而,由於在二基板之間一旦施加光學膠後,並將二 基板相互黏著後,即使尚未加熱固化,亦無法將二基板的 位置相互調整,以免導致基板的損毀,但是二基板上的丨丁 〇 導電區是彼此間隔設置的,且為必須精密對準的結構,所 M384361 以目前無論以人工或機器將二基板對準都可能產生誤差, 而使得製作出具有瑕疲或無法運作的電容式觸控面板,故 既有電谷式觸控面板之良率始終無法提升。 【新型内容】 本創作人有鑑於既有電容式觸控面板無法在施加光學 谬後進行對準的作業,巾導致良率下降,因此經過長期的 研究以及不斷的努力,終於創作出此電容式觸控面板。 本創作之目的在於提供一種能避免二基板相互干擾以 提升良率的電容式觸控面板。 為達上述目的,本創作之電容式觸控面板,包括: 本創作之電容式觸控面板,包括: 二基板,各基板具有一工作面,其中至少一基板之工 作面具有-導電區以及與該導電區連接的金屬佈線區; 一環形膠層,其係由可重複黏貼的黏著劑所組成並 &置於該等基板之間’ &於該等工作面之周緣處未與該等 導電區接觸的位置; 一間隔層(dot space「),其係設置於該等基板之間且位 於導電區的位置》 車乂佳的疋,該電容式觸控面板尚包括一絕緣油墨層, 其係設置於其中一基板與該環形膠層之間。 9本創作藉由可重複黏貼的黏著劑在二基板之間形成環 形膠,,故不會沾黏到導電區,所以能夠在製作過程中調 整該等基板,並移動基板的相對位置以使得該等基板能夠 準確地相互對齊,故能提升電容式觸控面板的良率。 4 M384361 【實施方式】 請參看第一圖所示,其係顯示本創作一實施態樣之電 容式觸控面板,包括: 二基板(10)(20),各基板(1〇)(2〇)具有一工作面,其中 一工作面具有一導電區(11)以及與該導電區〇”連接的金 屬佈線區(12),該導電區(11)包括複數由氧化銦錫(】丁〇)所 組成的觸點(1 11)’該金屬佈線區(1 2)包括複數條銀線 (121),另一基板(20)之工作面則於周緣形成有一絕緣油墨 層(50),其中位於底部之基板(10)的下表面設有一防電磁遮 蔽層(13),而位於頂部之基板(2〇)的上表面則設有二氧化矽 保護層(23),如第四圖所示; 一環形膠層(30) ’其係由水膠(hyd「〇ge|)、紫外線硬化 膠、背膠或感壓膠所组成’並設置於該等基板(1〇)(2〇)之 間,且於該等工作面之周緣處未與該等導電區(11)接觸的 位置; 一間隔層(dot spacer)(40),其係設置於該等基板 (10)(20)之間且位於導電區(11)的位置。 上述電容式觸控面板的製作方法,包括: 提供二基板(10)(20),各基板(1〇)(2〇)具有工作面,其 中於一工作面形成一導電區(11)以及與該導電區(^)連接 的金屬佈線區(12),該導電區(11)包括複數由氧化姻錫(丨丁〇) 所組成的觸點(111),該金屬佈線區(12)包括複數條銀線 (121) ’另一基板(20)的工作表面於周緣設置有一絕緣油墨 層(50); 於其中至少一基板(10)之工作面的周緣無接觸該導電 5 M384361 區(11)之處施加可重複黏貼的黏著劑,其可為水膠 (hyd「oge|)、紫外線硬化膠 '背膠或感壓膠,且在位於該導 電區(11)的位置設有一間隔層(d〇t spacer)(40); 再將該等基板(10)(20)的工作面相對且相互黏合; 調整該等基板(10)(20),以令該等基板(1〇)(2〇)相互對 齊’於本實施例中可使用一對準設備,將該等基板(1〇)(2〇) 放入該直角對準設備中,對該等基板(1〇)(2〇)的邊緣施加 壓力,迫使該等基板(10)(20)相互對齊; 對具有該可重複黏貼的黏著劑的該等基材(10)(20)進 行加熱和加壓,使得該可重複黏貼的黏著劑硬化以形成一 環形膠層(30),即可獲得該電容式觸控面板。 請參看第二至四圖所示,其係顯示本創作最佳實施態 樣之電容式觸控面板,包括: 一基板(10)(20),各基板(10)(20)具有一工作面,各工 作面的具有一導電區(11)(21)以及與該導電區(11)(21)連接 的金屬佈線區(12)(22),該等基板(10)(20)之工作面,該導 電區(11)(21)包括複數由氧化銦錫(IT0)所組成的觸點 (111)(211),該金屬佈線區(12)(22)包括複數條銀線 (121 )(221 ),其中位於底部之基板(10)的下表面設有一防電 磁遮蔽層(13),而位於頂部之基板(20)的上表面則設有二氧 化矽保護層(23),如第四圖所示; 一環形膠層(30),其係由水膠(hydrogel)、紫外線硬化 膠' 背膠或感壓膠所組成,並設置於該等基板(10)(20)之 間,且於該等工作面之周緣處未與該等導電區(11 )(21)接 觸的位置; 6 M384361 一間隔層(dot spacer)(40),其係設置於該等基板 (10)(20)之間且位於導電區(11)(21)的位置,以分隔二基板 (10)(20)的導電區(11)(21),使二基板(10)(20)絕緣。 上述電容式觸控面板的製作方法,包括: 提供二基板(10)(20),各基板(10)(20)具有工作面,於 各工作面形成一導電區(11)(21)以及與該導電區(11)(21)連 接的金屬佈線區(12)(22),該導電區(11)(21)包括複數由氧 化銦錫(IT0)所組成的觸點(111)(211),該金屬佈線區 (12)(22)包括複數條銀線(121 )(221); 於其中至少一基板(10)(20)之工作面的周緣無接觸該 導電區(1 1 )(21)之處施加可重複黏貼的黏著劑,其可為水 膠(hydrogel)、紫外線硬化膠、背膠或感壓膠; 於該等基板(10)(20)之間位於導電區(11)(21)的位置設 有間隔層(dot spacer),作為兩層基板(1〇)(2〇)絕緣之用; 再將該等基板(1 0)(20)的工作面相對且相互黏合; 調整該等基板(10)(20),以令該等基板(1〇)(2〇)相互對 齊’於本實施例中可使用一對準設備,將該等基板(1〇)(20) 放入該直角對準設備中,對該等基板(10)(20)的邊緣施加 壓力,迫使該等基板(10)(20)相互對齊; 對具有該可重複黏貼的黏著劑的該等基材(1〇)(2〇)進 行加熱和加壓’使得該可重複黏貼的黏著劑硬化以形成一 環形膠層(30),即可獲得該電容式觸控面板。 請參看第五和六圖所示,其係顯示本創作另一實施態 樣之電容式觸控面板,其係包括: 二基板(1〇)(20),各基板(10)(20)具有一工作面,各工 7 M384361 作面的具有一導電區(11)(21)以及與該導電區(11)(21)連接 的金屬佈線區(12)(22),該等基板(1〇)(2〇)之工作面,該導 電區(11)(21)包括複數由氧化銦錫(|T〇)所組成的觸點 (111)(211) ’該金屬佈線區(12)(22)包括複數條銀線 (121)(221) ’其中位於底部之基板(1〇)的下表面設有一防電 磁遮蔽層(13),而位於頂部之基板(2〇)的上表面則設有一二 氧化石夕保護層(23),如第四圖所示; 一環开>膠層(30),其係由水膠(hyd「〇ge|)、紫外線硬化 膠、背膠或感壓膠所組成,並設置於該等基板(1〇)(2〇)之 間,且於該等工作面之周緣處未與該等導電區(11)(21)接 觸的位置; 一間隔層(dot spacer)(40),其係設置於該等基板 (10)(20)之間且位於導電區(11)(21)的位置,以分隔二基板 (10)(20)的導電區(11)(21),使二基板(1〇)(2〇)絕緣; 一絕緣油墨層(50),其係設置於該基板(彳〇)(2〇)與該環 形膠層(30>之間,且與該導電區(11)(21)之邊緣接觸。 本創作一態樣之電容式觸控面板的製作方法,其係大 致與上述方法相同,其不同之處在於在該等基板(12)(22)相 互黏合之前,尚包括在至少一基板(12)(22)之工作面的周緣 施加絕緣油墨,以令該基板(12)(22)與該可重複黏貼的黏著 劑之間尚包括該絕緣油墨,且其係與該導電區(彳彳)(21)之邊 緣接觸。 本創作可適用於各種具有二基板(1〇)(2〇)的各種電容式 觸控面板’使得該等基板(10)(2〇)能夠準確對齊,確保二 基板(10)(20)的導電區不會重疊而相互干擾,故能準確控 8 制電容式觸批& 嘴徑面板的品質,而提升產品良率。 【圖式簡單說明】 第圖係本創作一實施態樣的立體分解圖。 第一圖係本創作一最佳實施態樣的立體分解圖。 第二圖係本創作—最佳實施態樣的俯視透視圖。 第四圖係本創作一最佳實施態樣的側面剖視圖。 第五圖係本創作另一實施態樣的立體分解圖。 第六圖係本創作另一實施態樣的俯視透視圖。 【主要元件符號說明】 (1〇)(2〇)基板 (II) (21)導電區 (III) (211)觸點 (1 2)(22)金屬佈線區 <121)(221)銀線 (1 3)防電磁遮蔽層 (23)二氧化矽保護層 (30)環形膠層 (40)間隔層 (50)絕緣油墨層 9M384361 V. New Description: [New Technology Field] This is a touch panel, especially a capacitive touch panel that can avoid mutual interference between two substrates to improve yield. [Prior Art] Generally, the common touch panels can be classified into four types: resistance type, capacitance type, sound wave type, and optical type according to different principles. At present, the most popular target is the capacitive touch panel, and the capacitive touch panel can be divided into a surface capacitive touch panel (single touch) and projection according to the different design of the touch area. The capacitive touch panel (multi-touch) can overcome the phenomenon that the resistive touch panel wears the screen by finger pressing. The general capacitive touch panel can have a single-layer substrate or a two-layer substrate. For example, the new patent application filed by the applicant in the Republic of China on December 1, 1998 is the projection capacitive touch panel of No. 9822321 No. 5 It is a two-layer substrate to improve the problem of a single-layer substrate. A capacitor having a two-layer substrate includes a two-substrate and an optical adhesive layer having staggered oxidized indium tin oxide conductive regions on the surfaces of the substrates and connecting the 丨TO The conductive region and the metal wiring region of the flexible circuit board are disposed between the substrates and are covered with the entire surface of the substrate to be in contact with the 丨TO conductive region and the metal wiring region. However, since the optical substrates are applied between the two substrates and the two substrates are adhered to each other, the positions of the two substrates cannot be adjusted to each other even if they have not been heated and cured, so as not to cause damage to the substrate, but the two substrates are not damaged. 〇The conductive areas are spaced apart from each other and must be precisely aligned. The M384361 can produce errors that are fatigued or inoperable by making errors in the alignment of the two substrates either manually or by machine. With the touch panel, the yield of the electric valley touch panel can never be improved. [New content] This creator has created a capacitive type after long-term research and continuous efforts, in view of the fact that the capacitive touch panel cannot be aligned after applying an optical cymbal. Touch panel. The purpose of this creation is to provide a capacitive touch panel that avoids mutual interference between two substrates to improve yield. For the above purposes, the capacitive touch panel of the present invention comprises: the capacitive touch panel of the present invention, comprising: two substrates, each substrate having a working surface, wherein at least one working surface of the substrate has a conductive region and a metal wiring region to which the conductive region is connected; an annular rubber layer composed of a re-stickable adhesive and disposed between the substrates; & not at the periphery of the working surfaces a position where the conductive region contacts; a spacer layer (dot space ") disposed between the substrates and located at a position of the conductive region", the capacitive touch panel further includes an insulating ink layer. The utility model is disposed between one of the substrates and the annular rubber layer. 9 The present invention forms a ring-shaped glue between the two substrates by a re-adhesive adhesive, so that it does not stick to the conductive region, so the manufacturing process can be performed. Adjusting the relative positions of the substrates and moving the substrates so that the substrates can be accurately aligned with each other, thereby improving the yield of the capacitive touch panel. 4 M384361 [Embodiment] Please refer to the first figure. The utility model relates to a capacitive touch panel according to an embodiment of the present invention, comprising: two substrates (10) (20), each substrate (1〇) (2〇) having a working surface, wherein a working mask has a working mask a conductive region (11) and a metal wiring region (12) connected to the conductive region ,", the conductive region (11) comprising a plurality of contacts (1 11) of the indium tin oxide The wiring area (12) includes a plurality of silver lines (121), and the working surface of the other substrate (20) is formed with an insulating ink layer (50) on the periphery, wherein the bottom surface of the substrate (10) is provided with an anti-proof layer. Electromagnetic shielding layer (13), and the upper surface of the substrate (2〇) is provided with a ruthenium dioxide protective layer (23), as shown in the fourth figure; an annular rubber layer (30) 'which is made of water Glue (hyd "〇ge|), ultraviolet curing glue, adhesive or pressure sensitive adhesive" is formed between the substrates (1〇) (2〇) and not at the periphery of the working faces a location where the conductive regions (11) are in contact; a spacer spacer (40) disposed between the substrates (10) (20) and located in the conductive region (11) The manufacturing method of the capacitive touch panel comprises: providing two substrates (10) (20), each substrate (1〇) (2〇) having a working surface, wherein a conductive area is formed on a working surface (11) And a metal wiring region (12) connected to the conductive region (^), the conductive region (11) comprising a plurality of contacts (111) composed of oxidized samarium oxide, the metal wiring region (12) Included in the plurality of silver wires (121) 'the working surface of the other substrate (20) is provided with an insulating ink layer (50) on the periphery; the periphery of the working surface of at least one of the substrates (10) is not in contact with the conductive 5 M384361 region (11) applying a re-adhesive adhesive, which may be a water gel (hyd "oge|), a UV-curing adhesive' adhesive or a pressure sensitive adhesive, and is provided with a space at a position of the conductive region (11). a layer (d) spacer (40); and the working faces of the substrates (10) (20) are opposite and bonded to each other; the substrates (10) (20) are adjusted to make the substrates (1) (2〇) mutually aligned. In this embodiment, an alignment device can be used, and the substrates (1〇) (2〇) are placed in the right-angle alignment device. Pressure is applied to the edges of the substrates (2 turns) to force the substrates (10) (20) to be aligned with each other; and the substrates (10) (20) having the re-stickable adhesive are applied. The capacitive touch panel is obtained by heating and pressurizing the hard-adhesive adhesive to form an annular adhesive layer (30). Please refer to the second to fourth figures, which show the capacitive touch panel of the best embodiment of the present invention, comprising: a substrate (10) (20), each substrate (10) (20) having a working surface Each working surface has a conductive area (11) (21) and a metal wiring area (12) (22) connected to the conductive area (11) (21), and working surfaces of the substrates (10) (20) The conductive region (11) (21) includes a plurality of contacts (111) (211) composed of indium tin oxide (IT0), and the metal wiring region (12) (22) includes a plurality of silver wires (121) ( 221), wherein the bottom surface of the substrate (10) is provided with an anti-electromagnetic shielding layer (13), and the upper surface of the substrate (20) is provided with a ceria protective layer (23), such as the fourth As shown in the figure; an annular rubber layer (30), which is composed of hydrogel, ultraviolet curing adhesive, or pressure sensitive adhesive, and is disposed between the substrates (10) (20), and a position at the periphery of the working faces that is not in contact with the conductive regions (11) (21); 6 M384361 a spacer spacer (40) disposed on the substrate (10) (20) Between and in the conductive area 11) position (21) to separate the second substrate (10) (20) conductive regions (11) (21), that the second substrate (20) Insulation (10). The manufacturing method of the capacitive touch panel includes: providing two substrates (10) (20), each substrate (10) (20) having a working surface, forming a conductive region (11) (21) and working with each working surface The conductive region (11) (21) is connected to the metal wiring region (12) (22), and the conductive region (11) (21) includes a plurality of contacts (111) (211) composed of indium tin oxide (IT0). The metal wiring region (12) (22) includes a plurality of silver wires (121) (221); the periphery of the working surface of at least one of the substrates (10) (20) is not in contact with the conductive region (1 1 ) (21 Wherever a re-stickable adhesive is applied, which may be a hydrogel, a UV curable adhesive, a backing or a pressure sensitive adhesive; between the substrates (10) (20) in the conductive region (11) ( 21) is provided with a dot spacer as a two-layer substrate (1〇) (2〇) for insulation; then the working faces of the substrates (10) (20) are opposite and bonded to each other; The substrates (10) (20) are arranged such that the substrates (1) are aligned with each other. In the present embodiment, an alignment device can be used, and the substrates (1) (20) are placed. Into the right angle alignment device, the base Applying pressure to the edges of the plates (10) (20) to force the substrates (10) (20) to align with each other; heating the substrates (1 〇) (2 〇) having the re-stickable adhesive and The capacitive touch panel is obtained by pressurizing the hard-adhesive adhesive to form an annular adhesive layer (30). Please refer to the fifth and sixth figures, which show a capacitive touch panel according to another embodiment of the present invention, which comprises: two substrates (1) (20), each substrate (10) (20) having a working surface, each of which has a conductive region (11) (21) and a metal wiring region (12) (22) connected to the conductive region (11) (21), the substrate (1) (2〇) working surface, the conductive region (11) (21) includes a plurality of contacts (111) (211) composed of indium tin oxide (|T〇) 'the metal wiring region (12) (22 Included in the plurality of silver wires (121) (221) 'the bottom surface of the substrate (1 〇) has an anti-electromagnetic shielding layer (13) on the lower surface, and the upper surface of the substrate (2 〇) on the top is provided a dioxide dioxide protective layer (23), as shown in the fourth figure; a ring open > glue layer (30), which is made of water gel (hyd "〇ge|), ultraviolet hardening glue, adhesive or pressure a layer of glue disposed between the substrates (2〇) and not in contact with the conductive regions (11) (21) at the periphery of the working faces; Dot spacer) (40), which is set at the base (10) Between (20) and at the position of the conductive region (11) (21) to separate the conductive regions (11) (21) of the two substrates (10) (20) so that the two substrates (1 〇) (2) 〇) insulation; an insulating ink layer (50) disposed between the substrate (〇) (2〇) and the annular rubber layer (30>, and the edge of the conductive region (11) (21) The method for fabricating a capacitive touch panel of the present invention is substantially the same as the above method, except that the substrate (12) (22) is included in at least one substrate before being bonded to each other. (12) The insulating ink is applied to the periphery of the working surface of (22) such that the insulating ink is included between the substrate (12) (22) and the re-stickable adhesive, and the conductive ink is attached to the conductive region (彳)彳) (21) Edge contact. This creation can be applied to various capacitive touch panels with two substrates (1〇) (2〇), so that the substrates (10) (2〇) can be accurately aligned to ensure The conductive areas of the two substrates (10) and (20) do not overlap and interfere with each other, so that the quality of the 8-capacity touch-type & mouth-diameter panel can be accurately controlled, and the product yield can be improved. BRIEF DESCRIPTION OF THE DRAWINGS The figure is an exploded perspective view of an embodiment of the present invention. The first figure is an exploded view of a preferred embodiment of the present creation. The second figure is a top perspective view of the present invention - the best embodiment. The fourth drawing is a side sectional view of a preferred embodiment of the present invention. The fifth drawing is an exploded perspective view of another embodiment of the present creation. The sixth drawing is a top perspective view of another embodiment of the present creation. Main component symbol description] (1〇) (2〇) substrate (II) (21) Conductive zone (III) (211) Contact (1 2) (22) Metal wiring area <121) (221) Silver wire ( 1 3) Anti-electromagnetic shielding layer (23) Cerium oxide protective layer (30) Annular rubber layer (40) Spacer layer (50) Insulating ink layer 9